KR100694443B1 - Skew settlement system of optical-disc apparatus - Google Patents

Abstract

A skew adjustment system of an optical disk device is provided to readjust radial skew for the optical disk device once misalignment of the radial skew is detected while displaying detected and readjusted states for the misalignment of the radial skew, thereby improving a product throughput. A skew adjustment jig unit(204) adjusts tangential skew and radial skew for an optical disk device, and readjusts the radial skew if misalignment of the radial skew is detected. A radial skew misalignment detector(206) detects misalignment of the radial skew for the disk device whose skew is adjusted. If the misalignment is not detected, a performance test module unit(210) receives the disk device from the detector(206) to carry out a performance test. A controller(202) provides a control signal for adjusting the tangential skew and the radial skew for the disk device as well as a control signal for readjusting the misalignment, to the jig unit(204), provides a control signal for detecting the misalignment to the detector(206), and provides a control signal for conducting the performance test to the module unit(210) if the misalignment is not detected.

Description

Skew set system of optical disk device {SKEW SETTLEMENT SYSTEM OF OPTICAL-DISC APPARATUS}

1 is a block diagram of a skew adjustment system of an optical disc apparatus performing a skew adjustment and performance test of an optical disc apparatus according to the related art.

2 is a block diagram of a skew adjustment system of an optical disc apparatus suitable for performing skew adjustment and performance tests of the optical disc apparatus according to the present invention;

3 illustrates variables used to detect misalignment of the radial skew of an optical disc device in accordance with the present invention.

<Description of the symbols for the main parts of the drawings>

202 control unit 204 skew adjusting jig unit

206: radial skew misalignment detection unit 208: display unit

210: performance test unit

The present invention relates to a system for detecting a misalignment of radial skews with respect to an optical disc apparatus, and more particularly to a skew adjusting system of an optical disc apparatus suitable for detecting and realigning a radial skew misalignment of an optical disc apparatus.

As is well known, in the optical disc, for example, CD, DVD, etc., it is important to reduce the inclination error, that is, skew, of the optical axis of the optical pickup and the optical disc in order to secure the accuracy of recording or reproducing.

This skew causes jitter in which the signal is distorted, which causes errors in signal processing. Therefore, precise adjustment of the skew of the optical disc is required. In general, a skew in the optical disc track direction (tangential skew) is required. And radial skew (radial skew).

1 is a block diagram of a manufacturing process system for an optical disk device according to the related art, and includes a control unit 102, a skew adjusting jig unit 104, and a performance test module unit 106.

Referring to FIG. 1, the control unit 102 performs overall operation control of an optical disc device manufacturing system, and provides a skew adjustment control signal for tangential skew or radial skew to the skew adjustment jig unit 104 and adjusts skew. The control signal for performing the performance test of the completed optical disk device is provided to the performance test module unit 106 and the like.

Then, the skew adjustment jig unit 104 performs skew adjustment on the tangential skew or the radial skew on the optical disk device input according to the control signal provided from the control unit 102. Here, the adjustment method for the tangential skew or the radial skew is a method of adjusting the inclination of the turntable and the sled axis on which the optical disc is seated, and measuring the error rate of the playback data by playing the optical disc to minimize the error. The method of adjusting skew is known.

Next, the performance test module 106 performs a performance test on the optical disk device on which the skew adjustment is completed, and performs a process of recording arbitrary data on the mounted optical disk, or playing back the recorded data. .

However, when the radial skew adjusted in the conventional optical disc device manufacturing system is misaligned, an error such as signal processing occurs when performing a performance test. To determine whether the error is caused by radial skew misalignment, After dismantling the device, there was a problem of recalibration through the skew adjustment jig, and if the error did not occur when performing the performance test, the product of the optical disk device was deteriorated, which caused the factor of consumer claim. The situation is working.

Accordingly, an object of the present invention is to provide a skew adjusting system of an optical disk apparatus capable of detecting and re-adjusting a radial skew misalignment of the optical disk apparatus.

In order to achieve the above object, the present invention provides a system for adjusting the skew for an optical disk device and testing the performance, wherein the tangential skew and the radial skew for the optical disk device are adjusted, and when a misalignment of the radial skew is detected. A skew adjustment jig unit for re-adjusting it, a radial skew misalignment detection unit for detecting a misalignment of the radial skew with respect to an optical disk device whose skew is adjusted through the skew adjustment jig unit, and the radial skew misalignment if the radial skew misalignment is not detected. A performance test module unit for performing a performance test by receiving a corresponding optical disk device from a detection unit, a control signal for adjusting tangent skew and a radial skew for the optical disk device, and a control signal for re-adjusting a radial skew when a misalignment is detected. It is made with the skew adjustment jig part And a control signal for detecting a misalignment of the radial skew to the radial skew misalignment detector, and a control signal for performing a performance test of the optical disk device to the performance test module unit if the radial skew misalignment is not detected. It provides a skew adjusting system of an optical disk device comprising a.

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A key technical aspect of the present invention is to adjust the tangential skew and the radial skew for the optical disk device, and check the misalignment of the radial skew for the optical disk device on which the skew is adjusted. By performing the performance test and detecting the radial skew misalignment, the radial skew of the optical disk device is readjusted. Through such technical means, the object of the present invention can be easily achieved.

FIG. 2 is a block diagram of a skew adjustment system of an optical disc apparatus suitable for performing skew adjustment and performance tests of the optical disc apparatus according to the present invention, wherein the control unit 202, the skew adjustment jig unit 204, and the radial skew misalignment detection unit 206 ), The display unit 208 and the performance test module unit 210.

Referring to FIG. 2, the controller 202 performs overall operation control of the optical disk device manufacturing system, and provides a skew adjustment control signal for tangential skew or radial skew to the skew adjustment jig unit 204 and adjusts skew. The radial skew misalignment detection unit 206 provides a control signal for detecting the radial skew misalignment of the completed optical disc device, and provides a control signal for performing a performance test when the radial skew misalignment of the optical disc device is not detected. 210) and the like.

In addition, when the radial skew misalignment of the optical disk device is detected, the controller 202 provides the skew adjustment jig unit 204 with a control signal for performing the readjustment of the radial skew of the optical disk device. It provides a control signal for indicating misalignment detected and readjustment thereof to the display unit 208, and the like.

Then, the skew adjusting jig unit 204 adjusts the skew adjustment for the radial skew or the radial skew for the optical disk device input according to the control signal provided from the controller 202, and readjusts the radial skew from the controller 202. The radial skew of the optical disk device is readjusted according to the control signal. Here, the adjustment method for the tangential skew or the radial skew is a method of adjusting the inclination of the turntable and the sled axis on which the optical disc is seated, and measuring the error rate of the playback data by playing the optical disc to minimize the error. The method of adjusting skew is known.

On the other hand, the radial skew misalignment detection unit 206 detects the misalignment of the radial skew by using the radial position R, the misalignment value L, and the misalignment angle θ of the laser light source with respect to the optical disc, as shown in FIG. When the optical skew is adjusted according to the control signal of the control unit 202, the radial skew is readjusted through the skew adjusting jig unit 204, and a misalignment of the radial skew is not detected (that is, the radial skew is correctly aligned). The performance test module unit 210 performs a performance test of the optical disk device.

Here, the process of detecting the misalignment of the radial skew in more detail, the function L (r) of the misalignment value L for the change of R, which is the radial position of the laser light source with respect to the optical disk, can be expressed as Equation 1 below. have.

L (r) = Tanθ × R = A × r + C

Here, A represents the slope with respect to the distance to the pickup, r means the initial value of L, C means the constant for the first L. At this time, θ has a value between 0 ° and 90 °.

In order to determine the radial skew misalignment for the optical disk device, Equation 1 may be differentiated to derive Equation 2 below.

dL / dr = A

Therefore, when the radial skew is normal, since Tanθ has a value of 0, that is, since the laser light source and the optical disk are vertical, Equation 1 becomes a form of 'L (r) = C', and 'dL / dr = 0 '. In addition, when the radial skew is misaligned, Equation 1 is in the form of 'L (r) = A x r + C', and 'dL / dr ≠ 0' in Equation (2).

On the other hand, the display unit 208 indicates that a radial skew misalignment is detected when a radial skew misalignment with respect to the optical disk device is detected according to a display control signal from the control unit 202, and that the radial skew is readjusted. do.

Next, when the radial skew misalignment is not detected, the performance test module unit 210 performs a performance test on the optical disk device. The random test module 210 records random data on the mounted optical disk or reproduces the recorded data. Perform.

Therefore, in the optical disc device manufacturing system, the radial skew can be readjusted by detecting the misalignment of the radial skew using the radial position R, the misalignment value L, and the misalignment angle θ of the laser light source with respect to the optical disc.

In the above description, the present invention has been described with reference to preferred embodiments, but the present invention is not necessarily limited thereto, and a person having ordinary skill in the art to which the present invention pertains may have various limitations without departing from the technical spirit of the present invention. It will be readily appreciated that various substitutions, modifications and variations are possible.

As described above, the present invention does not know whether the error is due to radial skew misalignment when a signal processing error occurs during the performance test of the optical disk device, and when the error does not occur in the radial skew misalignment, the performance is deteriorated. Unlike the conventional method in which a device is released, after adjusting the tangential skew and the radial skew for the optical disk device, and after checking the skew-aligned radial skew for the optical disk device, the skew is not detected, the misalignment of the radial skew is not detected. Performs a performance test by receiving the corresponding optical disk device, and if a radial skew misalignment is detected, readjust and adjust the radial skew misalignment for the optical disk device, and display the detection and readjustment of such radial skew misalignment, thereby radial skew misalignment of the optical disk device. Detects and recalibrates It can improve product yields over.

In addition, by detecting and realigning the radial skew misalignment with respect to the optical disc device, it is possible to easily recognize the radial skew misalignment detection with the optical disc device and thereby to adjust the realignment, thereby improving work convenience.

Claims (3)

A system for adjusting skew and testing performance for optical disk devices, A skew adjusting jig portion for adjusting the tangential skew and the radial skew for the optical disk device, and re-adjusting when a misalignment of the radial skew is detected; A radial skew misalignment detecting unit for detecting misalignment of the radial skew with respect to the optical disk device whose skew is adjusted through the skew adjusting jig unit; A performance test module unit for performing a performance test by receiving a corresponding optical disk device from the radial skew misalignment detection unit if the radial skew misalignment is not detected; The control signal for adjusting the tangential skew and the radial skew for the optical disk device, and if the misalignment of the radial skew is detected, the control signal for readjusting it is provided to the skew adjusting jig unit, and the control signal for detecting the misalignment of the radial skew is provided. The control unit provides the radial skew misalignment detection unit and provides a control signal for performing a performance test of the optical disc device to the performance test module unit when the radial skew misalignment is not detected. Skew adjustment system of the optical disk device comprising a. The method of claim 1, The skew adjustment system, If a misalignment of the radial skew is detected, a display unit for displaying a misalignment of the radial skew and a readjustment thereof. Skew adjustment system of the optical disk device further comprising. The method according to claim 1 or 2, The detection of the radial skew misalignment is performed by using a derivative value of a function including a radial position, a misalignment value, and a misalignment angle of a laser light source.

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